Raman spectroscopy uses scattered light to identify a substance's chemical ingredients and is one of the most widely used ...

Researchers have observed hydrogen and deuterium molecules in tiny spaces called picocavities using advanced spectroscopy. This study reveals unique differences between the molecules due to quantum ...

This discovery provided a significant breakthrough in molecular spectroscopy, enabling the study of vibrational and rotational energy transitions in different materials. C.V. Raman, educated ...

Raman spectroscopy is the preferred analytical technique for examining functional groups, edge and grain boundaries, defects, strain and thermal conductivity, doping, and the quality of the reduction ...

The strength of a Raman signal is inversely proportional to the fourth power of the wavelength of the scattered light. In practical terms, this means that the longer the excitation wavelength used to ...

Image Credit: Metrohm Middle East FZC An excerpt from the chapter Ph. Eur. 2.2.48 Raman Spectroscopy states: “Raman spectroscopy is commonly used for qualitative and quantitative applications ...

Raman spectroscopy delivers real time, non-destructive process insights for critical process parameters to monitor pharmaceutical manufacturing. Demanding regulations and tight quality tolerances ...

Raman micro spectroscopy provides a suitable and reliable technique to determine both these properties. The high spectral and spatial resolution of Raman spectroscopy, combined with high structural ...

Although certain technologies are ideal for precise laboratory identification, many technologies including Raman spectroscopy can be successfully used for identification of multiple forensic ...